Simultaneous quantification of each of the main motor programs in the roundworm C. elegans yields new insights into the neural mechanisms that coordinate animal behavior.

The diversity of electrophysiological phenotypes of neurons in a functional network increases over development, but can be modulated, and even reduced by sensory experience; allowing them to adapt to a changing and growing brain.

Genome-wide integration of transcriptome, accessible chromatin, and DNA methylome data from vascular endothelial cells lays the foundation for understanding the gene regulatory circuits that generate organ-specific vascular specialization.

Electrophysiological analysis and imaging in live zebrafish reveal that infant- and adult-onset SCA13 mutations have distinct effects on the electrical activity, development, and survival of cerebellar Purkinje cells.

In zombie fruit flies, Entomophthora muscae-elicited summiting behavior is mediated by blood-borne factors and the host circadian-neurosecretory network.

A proposal for a complete cellular/network implementation of trial-and-error motor learning in the olivo-cerebellar system.

Stem cell transplantation reduces intraocular pressure and preserves retinal ganglion cell function in a mouse glaucoma model, which could lead to a novel therapy for glaucoma to preserve vision.